Liqud crystal dsiplay device having a container module with a novel structure

ABSTRACT

A liquid crystal display has a mold frame divided into several parts. The liquid crystal display device includes a display unit for displaying an image, a back light assembly having a light source for generating a light, a light guiding plate for guiding the light, and a light focusing portion for focusing the light, and a mold frame divided into a first frame and a second frame. The mold frame receives the display unit and the back light assembly. The first frame receives the light guiding plate and the light focusing portion and the second frame receives the light source. A reflection sheet is integrally formed at an inner surface of the second frame so as to perform the function of a lamp reflector. Accordingly, a lamp cover is not required so that the number of parts and the manufacturing cost are reduced. A lamp can be exchanged by simply separating the second frame from the mold frame, so the fault of the light source caused by the friction with other elements is reduced when exchanging the lamp.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No.11/410,436, filed Apr. 24, 2006, by Guy-Ho Cha, Hee-Chun Lee, andJong-Dae Park, entitled “LIQUID CRYSTAL DISPLAY DEVICE HAVING ACONTAINER MODULE WITH A NOVEL STRUCTURE;” which is a continuation ofU.S. patent application Ser. No. 10/999,916, filed Dec. 1, 2004, byGuy-Ho Cha, Hee-Chun Lee, and Jong-Dae Park, entitled “LIQUID CRYSTALDISPLAY DEVICE HAVING A CONTAINER MODULE WITH A NOVEL STRUCTURE;” whichis a continuation of U.S. patent application Ser. No. 09/838,384, filedApr. 20, 2001, by Guy-Ho Cha, Hee-Chun Lee, and Jong-Dae Park, now U.S.Pat. No. 6,867,827 B2 issued Mar. 15, 2005, which claims priority ofKorean Patent Application No. 2000-22714 filed Apr. 28, 2000.

BACKGROUND

1. Technical Field

The present invention relates to a liquid crystal display device, moreparticularly, to a liquid crystal display device having a containermodule with a novel structure, in which a mold frame having a lightsource therein can be divided into several parts and a lamp reflectorfunction is added to the mold frame, thereby reducing the number ofparts and facilitating the assembling and repairing work of a lamp.

2. Description of the Related Arts

A cathode ray tube is generally used as a monitor in a television set, ameasuring instrument and an information appliance. Since the cathode raytube has a relatively heavy weight and a large size, the cathode raytube does not match with the trend of the miniaturization and lightweight requirements of the electronic appliance.

In order to solve the above problem, a liquid crystal display device,which displays information by using the electrical and optical featuresof a liquid crystal filled in a liquid crystal panel, is developed. Theliquid crystal display device not only can meet the miniaturization andlight weight requirements of the electronic appliance, but also canreduce the electric power. Recently, the liquid crystal display deviceis used in a flat display panel device.

The liquid crystal of the liquid crystal display device filled between aTFT (thin film transistor) substrate and a color filter substrate is alight receiving material which displays information in a screen byadjusting the amount of light incident from an exterior, so the liquidcrystal display device requires a separate light source, such as a backlight assembly for providing the liquid crystal panel with light.

FIG. 1 shows a conventional liquid crystal display device equipped withthe back light assembly.

Referring to FIG. 1, the liquid crystal display device comprises adisplay unit 10, the back light assembly 20 and a chassis 30.

The display unit 10 includes a TFT substrate (not shown), a color filtersubstrate (not shown) and a liquid crystal (not shown) filled betweenthe TFT substrate and the color filter substrate. An image signal isapplied to a transistor of the TFT substrate through a source and a gateof the TFT substrate. At this time, the liquid crystal receives anelectric signal and adjusts the amount of the light supplied from theback light assembly so as to display the image in a screen.

The back light assembly 20 is provided below the display unit 10 foruniformly supplying the light to the display unit 10.

The back light assembly 20 includes a light guiding plate 21 for guidingthe light, a light source 25 which is installed at a side of the lightguiding plate 21 so as to radiate the light, a reflection plate 26 whichis installed at a lower side of the light guiding plate 21 so as toreflect the light radiated from the light source 25 and optical sheets27 which is installed on an upper portion of the light guiding plate 21so as to diffuse and collect the light transferred from the light guideplate 21.

The light source 25 includes a lamp 22 for supplying the light, a pairof lamp holders 23 which are inserted into both ends of the lamp 22 inorder to protect the lamp 22, a lamp cover 24 which surrounds the lamp22 and reflects the light radiated from the lamp 22 towards the lightguiding plate 21 in order to improve the light efficiency, and a wire(not shown) for electrically connecting the lamp 22. The lamp cover 24is made of a metal, such as brass. An inner portion of the lamp cover 24is coated with silver (Ag) for reflecting the light.

A mold frame 30 fixedly supports the display unit 10 and the back lightassembly 20.

The mold frame 30 has a hexagonal box shape and an upper portion thereofis opened. The mold frame 30 is formed at an inner portion thereof witha receiving space. A stepped jaw portion is continuously formed from anupper portion of the receiving space to a lower portion of the receivingportion. Accordingly, a peripheral portion of the light guiding plate 21and the light source 25, which are positioned in the receiving space,are supported by a lateral portion of the mold frame 30, and the opticalsheets 27 and the display unit 10 are sequentially received into thestepped jaw portion formed at the upper portion of the mold frame 30.

However, in the conventional liquid crystal display device, the moldframe 30 and the lamp cover 24 are separately manufactured due to thefunctional difference between them, though they correspondingly makecontact with each other. This increases the numbers of parts.

In addition, since the light source 25 is slidably inserted into themold frame 30, the assembling work is very difficult. Furthermore, thelight source 25 can be damaged by contacting other parts when the lightsource 25 is inserted into or separated from the mold frame 30 forexchanging the lamp.

SUMMARY

The present invention has been made to solve the problem of the priorart, and accordingly, it is a first object of the present invention toprovide a liquid crystal display device in which a mold frame can bedivided into several parts and a lamp reflector function is added to themold frame.

A second object of the present invention is to provide a containermodule divided into several sections. Some of the divided sections canfunction as a lamp reflector.

To accomplish the first object of the present invention, there isprovided a liquid crystal display device including a display unit fordisplaying an image, a back light assembly having a light source forgenerating a light, a light guiding plate for guiding the light, and alight focusing portion for focusing the light, and a mold frame dividedinto a first frame and a second frame. The mold frame receives thedisplay unit and the back light assembly. The first frame receives thelight guiding plate and the light focusing portion and the second framereceives the light source. A reflection sheet is integrally formed at aninner surface of the second frame so as to function as a lamp reflector.

To accomplish the second object of the present invention, there isprovided a container module comprising a first frame for receiving adisplay unit that displays an image and a second frame for receiving alight source that supplies a light to the display unit. The first frameincludes a bottom surface, side walls vertically formed at peripheralportions of the bottom surface except for one peripheral portion of thebottom surface, and a supporting member for supporting the second frame.The second frame is detachably coupled to the supporting member and isprovided at an inner portion thereof with a lamp reflector.

According to the present invention, a lamp cover for reflecting thelight radiated into a rear side of a lamp into the light guiding plateis not required, so the number of parts and the manufacturing cost ofthe liquid crystal display device can be reduced, improving the workingefficiency. In addition, the lamp can be exchanged by simply separatingthe second frame, so the light source can be protected from damage whenexchanging the lamp.

BRIEF DESCRIPTION OF THE DRAWINGS

The above objects and other advantages of the present invention willbecome more apparent by describing in detail preferred embodimentsthereof with reference to the attached drawings, in which:

FIG. 1 is a schematic sectional view showing a conventional liquidcrystal display device;

FIG. 2 is an exploded perspective view showing a liquid crystal displaydevice according to an embodiment of the present invention;

FIG. 3 is an exploded perspective view showing a mold frame according toan embodiment of the present invention;

FIG. 4 is a perspective view showing the first embodiment of a secondframe according to the present invention;

FIG. 5 is a sectional view of “A1-A2” portion shown in FIG. 4;

FIG. 6 is a perspective view showing the second embodiment of a secondframe according to the present invention;

FIG. 7 is a sectional view of “A₁-A₂” portion shown in FIG. 6;

FIG. 8 is a sectional view of “B₁-B₂” portion shown in FIG. 6; and

FIG. 9 is a perspective view showing a first frame assembled with asecond frame.

DETAILED DESCRIPTION

Hereinafter, embodiments of the present invention will be described indetail with reference to the accompanying drawings. In this application,a length direction of a lamp of a liquid crystal display device isreferred to a transverse direction and a vertical direction of the lampis referred to a longitudinal direction. In addition, in the liquidcrystal display device, a first portion in which a liquid crystaldisplay panel is positioned is referred to an upper portion and a secondportion in opposite to the first portion is referred to a lower portion.

FIG. 2 shows an exploded view of the liquid crystal display devicehaving a mold frame that can be divided into several parts.

Referring to FIG. 2, the liquid crystal display device 100 has a liquidcrystal display module 700 for displaying an image by receiving an imagesignal and a case part 200 for receiving the liquid crystal displaymodule 200.

The liquid crystal display device 700 includes a display unit 400 fordisplaying the image, a back light assembly 500 for supplying the light,and a mold frame 600 for fixedly securing the display unit 400 and theback light assembly 500. The case part 200 includes a front case 210 anda rear case 220.

The display unit 400 includes a liquid crystal display panel 410 fordisplaying the image, a source side printed circuit board 420 forapplying a driving signal to a data line, a source side tape carrierpackage 430 which determines the time for applying the data line drivingsignal, a gate side printed circuit board 440 for applying a drivingsignal to a gate line, and a gate side tape carrier package 450 thatdetermines the time for applying the gate line driving signal. Theliquid crystal display panel 410 consists of a TFT substrate positionedat a lower portion, a color filter substrate positioned at an upperportion and a liquid crystal formed between the TFT substrate and thecolor filter substrate.

The image signal is applied to a transistor of the TFT substrate througha source portion and a gate portion of the TFT substrate. At this time,the liquid crystal receives an electric signal and adjusts the amount ofthe light supplied from the back light assembly 500 thereby forming theimage.

The back light assembly 500 is positioned below the display unit 400 foruniformly supplying the light to the display unit 400.

The back light assembly 500 has a light source 510, a light guidingplate 520, a reflection plate 530 and optical sheets 540.

The light source 510 includes a linear lamp 512 installed at a side ofthe liquid crystal display module 700 so as to generate the light, apair of lamp holders 514 which are inserted into both ends of the lamp512 so as to protect the lamp 512, and a wire 516 for electricallyconnecting the lamp 512 with an outer electrical source.

The light guiding plate 520 has a size corresponding to the size of theliquid crystal display panel 410 of the display unit 400 and ispositioned below the liquid crystal display panel 410 so as to guide thelight towards the display unit 400 while changing the light route. Thethickness of the light guiding plate 520 gradually decreases as it goesaway from the light source 510.

The reflection plate 530 is positioned below the light guiding plate520. The reflection plate 530 reflects the light leaking from the lightguiding plate 520 toward the light guiding plate 520 thereby improvingthe light efficiency. In addition, the plurality of optical sheets 540are positioned above the light guiding plate 520. The optical sheets 540makes the brightness of the light supplied into the liquid crystaldisplay panel 410 uniform.

The display unit 400 and the back light assembly 500 are fixedly securedby the mold frame 600. The mold frame 600 has a substantiallyhexahedrall shape with an open upper face. One side portion of the moldframe 600, in which the light source 510 is positioned, can be assembledwith and disassembled from the mold frame 600. Accordingly, the moldframe 600 consists of a first frame 610 for receiving the display unit400 and the back light assembly 500 except for the light source 510 anda second frame 660 for receiving the light source 510. A lamp reflectoris integrally formed at an inner side wall of the second frame 660 sothat the number of parts can be reduced as compared with theconventional liquid crystal display device.

A chassis 300 is provided to fix printed circuit boards 420 and 440 ofthe display unit 400 and the tape carrier packages 430 and 450 to themold frame 600.

The chassis 300 has the same hexahedral shape as the mold frame 600 withan opening on its upper face so as to expose the liquid crystal displaypanel 410. A side wall of the chassis 300 is vertically bent so as tocover an upper peripheral portion of the liquid crystal display panel410.

The assembling of the liquid crystal display device 100 is as follows.

Firstly, the back light assembly 500 is fixed to the mold frame 600.After that, the display unit 400 is rested on the back light assembly500. Then, printed circuit boards 420 and 440 connected through tapecarrier packages 430 and 450 are bent along an outer surface of the sidewall of the mold frame 600 in such a manner that the printed circuitboards 420 and 440 can be rested in the opening portion of the moldframe 600 or on the upper portion the side wall of the mold frame 600.Then, the chassis 300 is coupled to the mold frame 600 so as to fix thedisplay unit 400 and the back light assembly 500 to the mold frame 600.

After assembling the liquid crystal display module as mentioned above,the liquid crystal display module is accommodated between the front case210 and the rear case thereby fabricating the liquid crystal displaydevice 100.

FIG. 3 shows an exploded view of the mold frame 600 according to oneembodiment of the present invention.

Referring to FIG. 3, the mold frame 600 has the first frame 610 and thesecond frame 660. The first frame 610 receives the display unit 400, thelight guiding plate 520, the reflection plate 530 and a focusing device540. The second frame 660 receives the light source 510 and is connectedto the first frame 610.

The first frame 610 includes a bottom surface and first, second andthird side walls 620, 630 and 640 that are vertically formed at sideperipheral portions of the bottom surface except for one side peripheralportion of the bottom surface. In addition, a supporting member 650 forreceiving the second frame 660 is formed at one side peripheral portionof the bottom surface in which the side wall is not formed. The secondframe 660 is positioned at a side surface of the supporting member 650and has an upper surface corresponding to an upper surface of the first,second and third side walls 620, 630, and 640. The second frame 660 hasa length corresponding to a length of the supporting member 650, a widthcorresponding to an extending length of the bending portion of thesupporting member 650 and a height corresponding to the first, secondand third side walls 620, 630 and 640. Accordingly, the first, secondand third side walls 620, 630 and 640 of the first frame 610 and thesecond frame 660, positioned in a space defined by the supporting member650 and end portions of the first and second side walls 620 and 630,make a receiving space of the mold frame 600 that receives the displayunit and the back light assembly.

The supporting member 650 is transversely positioned in opposite to thethird side wall 640 of the first frame 610 and both ends thereof arevertically bent towards the first and second side walls 620 and 630.Accordingly, the wire for supplying the electric power to the lamp ofthe light source 510 received in the second frame 660 can be withdrawnto the exterior.

A first fixing part fixing and supporting the second frame 660 isintegrally formed on the upper surface of the supporting member 650.Also, a second fixing portion that is detachably coupled to the firstfixing portion is integrally formed on the outer surface of the secondframe 660. As an embodiment of the first fixing portion, a plurality ofcoupling hooks 655 are integrally formed on the upper surface of thesupporting member 650. Each of the coupling hooks 655 includes a fixingprojection 651 which is protruded from the upper surface of thesupporting member 650 and a coupling hole 652 perforating the fixingprojection 651. As an embodiment of the second fixing part, a pluralityof coupling projections 690 are integrally formed on the outer surfaceof the second frame 660. Therefore, the second frame 660 is fixed to thesupporting member 650 by inserting the coupling projections 690 into thecoupling holes 652, and separated from the supporting member 650 bypulling out the coupling projections 690 from the coupling holes 652.Accordingly, the second frame 660 is detachably coupled to thesupporting member 650.

In addition, a plurality of supporting surfaces for supporting thefocusing device 540 and the display unit 400 are formed on the uppersurface of the first, second and third side walls 620, 630 and 640. Thesupporting surfaces have stepped shapes towards the bottom surface ofthe first frame 610. The upper surface of the second frame 660 has aplurality of supporting surfaces for supporting the focusing device 540and the display unit 400. The supporting surfaces have stepped shapestowards the bottom surface of the second frame 660. Accordingly, thesupporting surfaces having the stepped shapes identical to that of thefirst to third side walls 620, 630 and 640 are formed on the uppersurface of the second frame.

A first groove 670 for receiving the lamp of the light source 510 istransversely formed on the inner surface of the second frame 660, facedwith the third side wall 640, and a second groove 680 for receiving alamp wire is formed on the outer surface of the second frame 660symmetrical to the inner surface of the second frame 660. A plurality ofcoupling projections 690 corresponding to the coupling hooks 655 isintegrally formed with the second frame 660 below the second groove 680.The following explains various embodiment of the second frame 660 indetail.

FIG. 4 shows the first embodiment of the second frame according to thepresent invention. FIG. 5 is a sectional view of “A₁-A₂” portion shownin FIG. 4.

Referring to FIGS. 4 and 5, the second frame 660 receiving the lightsource 510 has a first groove 670 receiving the lamp on a side and asecond groove 680 receiving the lamp wire on the other side.

The first groove 670 has predetermined width and depth and is formed inthe length direction of the second frame 660. Accordingly, the sectionalshape of the first groove 670 has a substantially rectangular shapedefined by a bottom portion 670 a, a side portion 670 b and a coverportion 670 c. The other side portion of the first groove 670 positionedin opposite to the side portion 670 b is open. The lamp holders 514 arepositioned at both ends of the first groove 670 for supporting the lamp512 of the light source 510. The width and depth of the first groove 670are corresponding to the size of the lamp holder 514. The lamp 512 ispositioned in the first groove 670 in the lengthwise direction of thefirst groove 670 and both ends of the lamp 512 are coupled the lampholders 514.

In addition, the lamp reflector 518 for reflecting the light towards thelight guiding plate 520 is integrally formed with the inner portion ofthe first groove 670. The lamp reflector 518 surrounds the bottomportion 670 a, the side portion 670 b and the cover portion 670 c of thefirst groove 670 except for a portion corresponding to the lamp holder514. Preferably, a reflecting sheet made of polyethylene terephthalateis coated on the bottom portion 670 a, the side portion 670 b and thecover portion 670 c of the first groove 670.

The second groove 680 is formed on a side symmetric to the side of thesecond frame on which the first groove 670 is formed, shaping asquare-groove which is cut out along the length of the second frame 660,having the predetermined width and depth. A connecting member 516 aelectrically connected to the lamp 512 is located inside the secondgroove 680.

FIG. 6 shows the second embodiment of the second frame according to thepresent invention. FIG. 7 is a sectional view of “A₁-A₂” portion shownin FIG. 6 and FIG. 8 is a sectional view of “B₁-B₂” portion shown inFIG. 6.

Referring to FIGS. 6, 7 and 8, the second frame 660 receiving the lightsource 510 has a first groove 670 receiving the lamp on a side and asecond groove 680 receiving the lamp wire on the other side.

The first groove 670 of this embodiment omits the bottom portion 670 athereby reducing the weight of the second frame 660. Accordingly, asshown in FIG. 7, a first portion of the first groove 670, in which thelamp holder 514 is positioned, has substantially rectangular shapedefined by the bottom portion 670 a, the side portion 670 b, the coverportion 670 c and the other side of the first portion opposite to theside portion being open. However, as shown in FIG. 8, a second portionof the first groove 670, in which the lamp 512 is positioned, has onlythe side portion 670 b and the cover portion 670 c.

At this time, the lamp reflector 518 is attached to the side portion 670b and the cover portion 670 c so that the light generated from the lamp512 can be reflected towards the light guiding plate 520. However, sincethe bottom portion 670 a is open, the light is not reflected in thebottom portion area. For this reason, the reflection plate 530preferably extends up to the lower portion of the lamp 512 beyond thelower portion of the light guiding plate 520. The extended reflectionplate 530 allows the light, which is radiated into the lower portion ofthe second frame from the lamp 512, to be reflected towards the lightguiding plate 520 so that the reflecting efficiency of the light can beconstantly maintained.

In the conventional liquid crystal display device, the mold frame andthe lamp cover are separately manufactured though they are correspondingto each other, increasing the number of parts. However, in the liquidcrystal display device of the present invention, the mold framefunctions not only as a receiving container, but also as a reflector forreflecting the light generated from the lamp, reducing the number of theparts and improving the working efficiency.

The assembling of the mold frame 600 capable of dividing into severalparts is as follows.

FIG. 9 shows the first frame 610 assembled with the second frame 660.

Referring to FIG. 9, the lamp 512 and the lamp holder 514 are insertedinto the first groove 670 formed in the inner portion of the secondframe 660. A cold wire 516 a connected to a cold electrode of the lamp512 is received in the wire groove 680 formed in the outer portion ofthe second frame 660 and is connected to an inverter (not shown). On theother hand, a hot wire 516 b connected to a hot electrode of the lamp512 is connected to the inverter through the side portion of the lampholder 514.

The coupling projections 690 formed at the outer portion of the secondframe 660 are correspondingly coupled to the coupling hooks 655integrally formed with the supporting portion 650 of the first frame610. At this time, the stepped supporting member formed on the upperportions of the first and second side walls 620 and 630 of the firstframe 610 is matched with the stepped supporting member formed on theupper surface of the second frame 660. In this manner, the mold frame600 is assembled.

On the other hand, when exchanging the lamp 512, the second frame 660 isfirstly separated from the mold frame 600 by separating the couplinghooks 655 from the coupling projections 690. Thereafter, the lamp 512received in the first groove 670 of the second frame 660 is exchanged.Since the lamp 512 can be exchanged by simply separating the secondframe 660, the light source 510 can be prevented from the externalimpact while the lamp 512 is being exchanged, reducing the fault of thelight source 510 caused by the friction with other elements.

Though one second frame 660 is described in this application, if thelight source 510 is inserted into both sides of the light guiding plate520, two second frames 660 can be used. In this case, the first frame610 has a pair of the side walls and a pair of supporting members. Twosecond frames 660 are coupled to the pair of supporting members,respectively.

As described above, according to the present invention, the mold frameis divided into several parts and the lamp reflector is attached to thegroove of the divided mold frame. In addition, after receiving the lightsource without the lamp cover, the divided mold frames are assembled.Therefore, the mold frame functions as a container for receiving theliquid crystal display module and as the lamp cover. Accordingly, thenumber of the parts for the liquid crystal display device can be reducedand the manufacturing cost can be saved. In addition, the assemblingsteps and the repairing work of the liquid crystal display device can besimplified. Furthermore, since the lamp can be exchanged by simplyseparating the second frame having the light source, the fault of thelight source caused by the friction with other elements can be reducedwhen exchanging the lamp.

Although preferred embodiments of the invention have been described, itwill be understood by those skilled in the art that the presentinvention should not be limited to the described preferred embodiment,but various changes and modifications can be made within the spirit andscope of the invention as defined by the appended claims.

1. A backlight assembly for a display device comprising: a light source;a light guide plate disposed at a side of the light source; a firstreceiving unit having a plurality of sidewalls; a second receiving unitcombined with the first receiving unit, the second receiving unitincluding a light source receiving portion receiving the light source;and a reflective member disposed between the light source and an innersurface of the second receiving unit corresponding to the light source.2. The backlight assembly of claim 1, the light source receiving portioncomprising: a base plate; a sidewall extended from the base plate andbended substantially perpendicular to the base plate; and a cover plateextended from the base plate, wherein the cover plate is substantiallyparallel with the base plate.
 3. The backlight assembly of claim 2, thesecond receiving unit further comprising a groove formed on an outersurface of the second receiving unit, the groove fixing a wire connectedto the light source for supplying electric energy thereto.
 4. Thebacklight assembly of claim 3, wherein the second receiving unit furthercomprises a stepped portion for supporting an optical sheet, the steppedportions being disposed such that the optical sheet is disposed thefirst receiving unit.
 5. A display device comprising a display paneldisplaying an image; and a backlight assembly providing the displaypanel with light, the backlight assembly comprising: a light source; alight guide plate disposed at a side of the light source; a firstreceiving unit having a plurality of sidewalls; a second receiving unitcombined with the first receiving unit, the second receiving unitincluding a light source receiving portion receiving the light source;and a reflective member disposed between the light source and an innersurface of the second receiving unit corresponding to the light source.6. The display device of claim 5, wherein the light source receivingportion comprising: a base plate; a sidewall extended from the baseplate and bended substantially perpendicular to the base plate; and acover plate extended from the base plate, wherein the cover plate issubstantially parallel with the base plate.
 7. The backlight assembly ofclaim 6, wherein the second receiving unit further comprising a grooveformed on an outer surface of the second receiving unit, the groovefixing a wire connected to the light source for supplying electricenergy thereto.